// Lean compiler output
// Module: Init.Grind.Config
// Imports: public import Init.Core
#include <lean/lean.h>
#if defined(__clang__)
#pragma clang diagnostic ignored "-Wunused-parameter"
#pragma clang diagnostic ignored "-Wunused-label"
#elif defined(__GNUC__) && !defined(__CLANG__)
#pragma GCC diagnostic ignored "-Wunused-parameter"
#pragma GCC diagnostic ignored "-Wunused-label"
#pragma GCC diagnostic ignored "-Wunused-but-set-variable"
#endif
#ifdef __cplusplus
extern "C" {
#endif
LEAN_EXPORT uint8_t l_Lean_Grind_instBEqConfig_beq(lean_object*, lean_object*);
LEAN_EXPORT lean_object* l_Lean_Grind_instInhabitedConfig_default;
LEAN_EXPORT lean_object* l_Lean_Grind_instBEqConfig_beq___boxed(lean_object*, lean_object*);
static lean_object* l_Lean_Grind_instInhabitedConfig_default___closed__0;
LEAN_EXPORT lean_object* l_Lean_Grind_instBEqConfig;
LEAN_EXPORT lean_object* l_Lean_Grind_instInhabitedConfig;
static lean_object* l_Lean_Grind_instBEqConfig___closed__0;
uint8_t lean_nat_dec_eq(lean_object*, lean_object*);
static lean_object* _init_l_Lean_Grind_instInhabitedConfig_default___closed__0() {
_start:
{
lean_object* x_1; uint8_t x_2; lean_object* x_3; 
x_1 = lean_unsigned_to_nat(0u);
x_2 = 0;
x_3 = lean_alloc_ctor(0, 10, 30);
lean_ctor_set(x_3, 0, x_1);
lean_ctor_set(x_3, 1, x_1);
lean_ctor_set(x_3, 2, x_1);
lean_ctor_set(x_3, 3, x_1);
lean_ctor_set(x_3, 4, x_1);
lean_ctor_set(x_3, 5, x_1);
lean_ctor_set(x_3, 6, x_1);
lean_ctor_set(x_3, 7, x_1);
lean_ctor_set(x_3, 8, x_1);
lean_ctor_set(x_3, 9, x_1);
lean_ctor_set_uint8(x_3, sizeof(void*)*10, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 1, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 2, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 3, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 4, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 5, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 6, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 7, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 8, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 9, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 10, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 11, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 12, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 13, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 14, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 15, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 16, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 17, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 18, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 19, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 20, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 21, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 22, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 23, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 24, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 25, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 26, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 27, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 28, x_2);
lean_ctor_set_uint8(x_3, sizeof(void*)*10 + 29, x_2);
return x_3;
}
}
static lean_object* _init_l_Lean_Grind_instInhabitedConfig_default() {
_start:
{
lean_object* x_1; 
x_1 = l_Lean_Grind_instInhabitedConfig_default___closed__0;
return x_1;
}
}
static lean_object* _init_l_Lean_Grind_instInhabitedConfig() {
_start:
{
lean_object* x_1; 
x_1 = l_Lean_Grind_instInhabitedConfig_default;
return x_1;
}
}
LEAN_EXPORT uint8_t l_Lean_Grind_instBEqConfig_beq(lean_object* x_1, lean_object* x_2) {
_start:
{
uint8_t x_3; uint8_t x_4; uint8_t x_5; lean_object* x_6; lean_object* x_7; lean_object* x_8; lean_object* x_9; uint8_t x_10; uint8_t x_11; uint8_t x_12; uint8_t x_13; uint8_t x_14; lean_object* x_15; uint8_t x_16; uint8_t x_17; uint8_t x_18; uint8_t x_19; uint8_t x_20; uint8_t x_21; uint8_t x_22; uint8_t x_23; uint8_t x_24; uint8_t x_25; uint8_t x_26; uint8_t x_27; lean_object* x_28; uint8_t x_29; uint8_t x_30; uint8_t x_31; lean_object* x_32; lean_object* x_33; uint8_t x_34; uint8_t x_35; uint8_t x_36; lean_object* x_37; lean_object* x_38; uint8_t x_39; uint8_t x_40; uint8_t x_41; uint8_t x_42; uint8_t x_43; uint8_t x_44; uint8_t x_45; lean_object* x_46; lean_object* x_47; lean_object* x_48; lean_object* x_49; uint8_t x_50; uint8_t x_51; uint8_t x_52; uint8_t x_53; uint8_t x_54; lean_object* x_55; uint8_t x_56; uint8_t x_57; uint8_t x_58; uint8_t x_59; uint8_t x_60; uint8_t x_61; uint8_t x_62; uint8_t x_63; uint8_t x_64; uint8_t x_65; uint8_t x_66; uint8_t x_67; lean_object* x_68; uint8_t x_69; uint8_t x_70; uint8_t x_71; lean_object* x_72; lean_object* x_73; uint8_t x_74; uint8_t x_75; uint8_t x_76; lean_object* x_77; lean_object* x_78; uint8_t x_79; uint8_t x_80; uint8_t x_81; uint8_t x_82; uint8_t x_83; uint8_t x_85; uint8_t x_87; uint8_t x_93; uint8_t x_99; uint8_t x_113; uint8_t x_120; 
x_3 = lean_ctor_get_uint8(x_1, sizeof(void*)*10);
x_4 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 1);
x_5 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 2);
x_6 = lean_ctor_get(x_1, 0);
x_7 = lean_ctor_get(x_1, 1);
x_8 = lean_ctor_get(x_1, 2);
x_9 = lean_ctor_get(x_1, 3);
x_10 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 3);
x_11 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 4);
x_12 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 5);
x_13 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 6);
x_14 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 7);
x_15 = lean_ctor_get(x_1, 4);
x_16 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 8);
x_17 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 9);
x_18 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 10);
x_19 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 11);
x_20 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 12);
x_21 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 13);
x_22 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 14);
x_23 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 15);
x_24 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 16);
x_25 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 17);
x_26 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 18);
x_27 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 19);
x_28 = lean_ctor_get(x_1, 5);
x_29 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 20);
x_30 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 21);
x_31 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 22);
x_32 = lean_ctor_get(x_1, 6);
x_33 = lean_ctor_get(x_1, 7);
x_34 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 23);
x_35 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 24);
x_36 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 25);
x_37 = lean_ctor_get(x_1, 8);
x_38 = lean_ctor_get(x_1, 9);
x_39 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 26);
x_40 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 27);
x_41 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 28);
x_42 = lean_ctor_get_uint8(x_1, sizeof(void*)*10 + 29);
x_43 = lean_ctor_get_uint8(x_2, sizeof(void*)*10);
x_44 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 1);
x_45 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 2);
x_46 = lean_ctor_get(x_2, 0);
x_47 = lean_ctor_get(x_2, 1);
x_48 = lean_ctor_get(x_2, 2);
x_49 = lean_ctor_get(x_2, 3);
x_50 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 3);
x_51 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 4);
x_52 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 5);
x_53 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 6);
x_54 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 7);
x_55 = lean_ctor_get(x_2, 4);
x_56 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 8);
x_57 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 9);
x_58 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 10);
x_59 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 11);
x_60 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 12);
x_61 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 13);
x_62 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 14);
x_63 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 15);
x_64 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 16);
x_65 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 17);
x_66 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 18);
x_67 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 19);
x_68 = lean_ctor_get(x_2, 5);
x_69 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 20);
x_70 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 21);
x_71 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 22);
x_72 = lean_ctor_get(x_2, 6);
x_73 = lean_ctor_get(x_2, 7);
x_74 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 23);
x_75 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 24);
x_76 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 25);
x_77 = lean_ctor_get(x_2, 8);
x_78 = lean_ctor_get(x_2, 9);
x_79 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 26);
x_80 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 27);
x_81 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 28);
x_82 = lean_ctor_get_uint8(x_2, sizeof(void*)*10 + 29);
if (x_3 == 0)
{
if (x_43 == 0)
{
goto block_128;
}
else
{
return x_3;
}
}
else
{
if (x_43 == 0)
{
return x_43;
}
else
{
goto block_128;
}
}
block_84:
{
if (x_42 == 0)
{
if (x_82 == 0)
{
return x_83;
}
else
{
return x_42;
}
}
else
{
return x_82;
}
}
block_86:
{
if (x_41 == 0)
{
if (x_81 == 0)
{
x_83 = x_85;
goto block_84;
}
else
{
return x_41;
}
}
else
{
if (x_81 == 0)
{
return x_81;
}
else
{
x_83 = x_81;
goto block_84;
}
}
}
block_88:
{
if (x_87 == 0)
{
return x_87;
}
else
{
if (x_40 == 0)
{
if (x_80 == 0)
{
x_85 = x_87;
goto block_86;
}
else
{
return x_40;
}
}
else
{
if (x_80 == 0)
{
return x_80;
}
else
{
x_85 = x_80;
goto block_86;
}
}
}
}
block_91:
{
uint8_t x_89; 
x_89 = lean_nat_dec_eq(x_37, x_77);
if (x_89 == 0)
{
return x_89;
}
else
{
uint8_t x_90; 
x_90 = lean_nat_dec_eq(x_38, x_78);
if (x_90 == 0)
{
return x_90;
}
else
{
if (x_39 == 0)
{
if (x_79 == 0)
{
x_87 = x_90;
goto block_88;
}
else
{
return x_39;
}
}
else
{
x_87 = x_79;
goto block_88;
}
}
}
}
block_92:
{
if (x_36 == 0)
{
if (x_76 == 0)
{
goto block_91;
}
else
{
return x_36;
}
}
else
{
if (x_76 == 0)
{
return x_76;
}
else
{
goto block_91;
}
}
}
block_94:
{
if (x_93 == 0)
{
return x_93;
}
else
{
if (x_35 == 0)
{
if (x_75 == 0)
{
goto block_92;
}
else
{
return x_35;
}
}
else
{
if (x_75 == 0)
{
return x_75;
}
else
{
goto block_92;
}
}
}
}
block_97:
{
uint8_t x_95; 
x_95 = lean_nat_dec_eq(x_32, x_72);
if (x_95 == 0)
{
return x_95;
}
else
{
uint8_t x_96; 
x_96 = lean_nat_dec_eq(x_33, x_73);
if (x_96 == 0)
{
return x_96;
}
else
{
if (x_34 == 0)
{
if (x_74 == 0)
{
x_93 = x_96;
goto block_94;
}
else
{
return x_34;
}
}
else
{
x_93 = x_74;
goto block_94;
}
}
}
}
block_98:
{
if (x_31 == 0)
{
if (x_71 == 0)
{
goto block_97;
}
else
{
return x_31;
}
}
else
{
if (x_71 == 0)
{
return x_71;
}
else
{
goto block_97;
}
}
}
block_100:
{
if (x_99 == 0)
{
return x_99;
}
else
{
if (x_30 == 0)
{
if (x_70 == 0)
{
goto block_98;
}
else
{
return x_30;
}
}
else
{
if (x_70 == 0)
{
return x_70;
}
else
{
goto block_98;
}
}
}
}
block_102:
{
uint8_t x_101; 
x_101 = lean_nat_dec_eq(x_28, x_68);
if (x_101 == 0)
{
return x_101;
}
else
{
if (x_29 == 0)
{
if (x_69 == 0)
{
x_99 = x_101;
goto block_100;
}
else
{
return x_29;
}
}
else
{
x_99 = x_69;
goto block_100;
}
}
}
block_103:
{
if (x_27 == 0)
{
if (x_67 == 0)
{
goto block_102;
}
else
{
return x_27;
}
}
else
{
if (x_67 == 0)
{
return x_67;
}
else
{
goto block_102;
}
}
}
block_104:
{
if (x_26 == 0)
{
if (x_66 == 0)
{
goto block_103;
}
else
{
return x_26;
}
}
else
{
if (x_66 == 0)
{
return x_66;
}
else
{
goto block_103;
}
}
}
block_105:
{
if (x_25 == 0)
{
if (x_65 == 0)
{
goto block_104;
}
else
{
return x_25;
}
}
else
{
if (x_65 == 0)
{
return x_65;
}
else
{
goto block_104;
}
}
}
block_106:
{
if (x_24 == 0)
{
if (x_64 == 0)
{
goto block_105;
}
else
{
return x_24;
}
}
else
{
if (x_64 == 0)
{
return x_64;
}
else
{
goto block_105;
}
}
}
block_107:
{
if (x_23 == 0)
{
if (x_63 == 0)
{
goto block_106;
}
else
{
return x_23;
}
}
else
{
if (x_63 == 0)
{
return x_63;
}
else
{
goto block_106;
}
}
}
block_108:
{
if (x_22 == 0)
{
if (x_62 == 0)
{
goto block_107;
}
else
{
return x_22;
}
}
else
{
if (x_62 == 0)
{
return x_62;
}
else
{
goto block_107;
}
}
}
block_109:
{
if (x_21 == 0)
{
if (x_61 == 0)
{
goto block_108;
}
else
{
return x_21;
}
}
else
{
if (x_61 == 0)
{
return x_61;
}
else
{
goto block_108;
}
}
}
block_110:
{
if (x_20 == 0)
{
if (x_60 == 0)
{
goto block_109;
}
else
{
return x_20;
}
}
else
{
if (x_60 == 0)
{
return x_60;
}
else
{
goto block_109;
}
}
}
block_111:
{
if (x_19 == 0)
{
if (x_59 == 0)
{
goto block_110;
}
else
{
return x_19;
}
}
else
{
if (x_59 == 0)
{
return x_59;
}
else
{
goto block_110;
}
}
}
block_112:
{
if (x_18 == 0)
{
if (x_58 == 0)
{
goto block_111;
}
else
{
return x_18;
}
}
else
{
if (x_58 == 0)
{
return x_58;
}
else
{
goto block_111;
}
}
}
block_114:
{
if (x_113 == 0)
{
return x_113;
}
else
{
if (x_17 == 0)
{
if (x_57 == 0)
{
goto block_112;
}
else
{
return x_17;
}
}
else
{
if (x_57 == 0)
{
return x_57;
}
else
{
goto block_112;
}
}
}
}
block_116:
{
uint8_t x_115; 
x_115 = lean_nat_dec_eq(x_15, x_55);
if (x_115 == 0)
{
return x_115;
}
else
{
if (x_16 == 0)
{
if (x_56 == 0)
{
x_113 = x_115;
goto block_114;
}
else
{
return x_16;
}
}
else
{
x_113 = x_56;
goto block_114;
}
}
}
block_117:
{
if (x_14 == 0)
{
if (x_54 == 0)
{
goto block_116;
}
else
{
return x_14;
}
}
else
{
if (x_54 == 0)
{
return x_54;
}
else
{
goto block_116;
}
}
}
block_118:
{
if (x_13 == 0)
{
if (x_53 == 0)
{
goto block_117;
}
else
{
return x_13;
}
}
else
{
if (x_53 == 0)
{
return x_53;
}
else
{
goto block_117;
}
}
}
block_119:
{
if (x_12 == 0)
{
if (x_52 == 0)
{
goto block_118;
}
else
{
return x_12;
}
}
else
{
if (x_52 == 0)
{
return x_52;
}
else
{
goto block_118;
}
}
}
block_121:
{
if (x_120 == 0)
{
return x_120;
}
else
{
if (x_11 == 0)
{
if (x_51 == 0)
{
goto block_119;
}
else
{
return x_11;
}
}
else
{
if (x_51 == 0)
{
return x_51;
}
else
{
goto block_119;
}
}
}
}
block_126:
{
uint8_t x_122; 
x_122 = lean_nat_dec_eq(x_6, x_46);
if (x_122 == 0)
{
return x_122;
}
else
{
uint8_t x_123; 
x_123 = lean_nat_dec_eq(x_7, x_47);
if (x_123 == 0)
{
return x_123;
}
else
{
uint8_t x_124; 
x_124 = lean_nat_dec_eq(x_8, x_48);
if (x_124 == 0)
{
return x_124;
}
else
{
uint8_t x_125; 
x_125 = lean_nat_dec_eq(x_9, x_49);
if (x_125 == 0)
{
return x_125;
}
else
{
if (x_10 == 0)
{
if (x_50 == 0)
{
x_120 = x_125;
goto block_121;
}
else
{
return x_10;
}
}
else
{
x_120 = x_50;
goto block_121;
}
}
}
}
}
}
block_127:
{
if (x_5 == 0)
{
if (x_45 == 0)
{
goto block_126;
}
else
{
return x_5;
}
}
else
{
if (x_45 == 0)
{
return x_45;
}
else
{
goto block_126;
}
}
}
block_128:
{
if (x_4 == 0)
{
if (x_44 == 0)
{
goto block_127;
}
else
{
return x_4;
}
}
else
{
if (x_44 == 0)
{
return x_44;
}
else
{
goto block_127;
}
}
}
}
}
LEAN_EXPORT lean_object* l_Lean_Grind_instBEqConfig_beq___boxed(lean_object* x_1, lean_object* x_2) {
_start:
{
uint8_t x_3; lean_object* x_4; 
x_3 = l_Lean_Grind_instBEqConfig_beq(x_1, x_2);
lean_dec_ref(x_2);
lean_dec_ref(x_1);
x_4 = lean_box(x_3);
return x_4;
}
}
static lean_object* _init_l_Lean_Grind_instBEqConfig___closed__0() {
_start:
{
lean_object* x_1; 
x_1 = lean_alloc_closure((void*)(l_Lean_Grind_instBEqConfig_beq___boxed), 2, 0);
return x_1;
}
}
static lean_object* _init_l_Lean_Grind_instBEqConfig() {
_start:
{
lean_object* x_1; 
x_1 = l_Lean_Grind_instBEqConfig___closed__0;
return x_1;
}
}
lean_object* initialize_Init_Core(uint8_t builtin);
static bool _G_initialized = false;
LEAN_EXPORT lean_object* initialize_Init_Grind_Config(uint8_t builtin) {
lean_object * res;
if (_G_initialized) return lean_io_result_mk_ok(lean_box(0));
_G_initialized = true;
res = initialize_Init_Core(builtin);
if (lean_io_result_is_error(res)) return res;
lean_dec_ref(res);
l_Lean_Grind_instInhabitedConfig_default___closed__0 = _init_l_Lean_Grind_instInhabitedConfig_default___closed__0();
lean_mark_persistent(l_Lean_Grind_instInhabitedConfig_default___closed__0);
l_Lean_Grind_instInhabitedConfig_default = _init_l_Lean_Grind_instInhabitedConfig_default();
lean_mark_persistent(l_Lean_Grind_instInhabitedConfig_default);
l_Lean_Grind_instInhabitedConfig = _init_l_Lean_Grind_instInhabitedConfig();
lean_mark_persistent(l_Lean_Grind_instInhabitedConfig);
l_Lean_Grind_instBEqConfig___closed__0 = _init_l_Lean_Grind_instBEqConfig___closed__0();
lean_mark_persistent(l_Lean_Grind_instBEqConfig___closed__0);
l_Lean_Grind_instBEqConfig = _init_l_Lean_Grind_instBEqConfig();
lean_mark_persistent(l_Lean_Grind_instBEqConfig);
return lean_io_result_mk_ok(lean_box(0));
}
#ifdef __cplusplus
}
#endif
